A first block, with mass Mi, resides on a wooden surface. It is connected by an ideal, meaning massless and inelastic, rope that passes over an ideal, meaning massless and frictionless, pulley. A second block, with mass M. hangs from the other end of the rope. The system is released from rest, and the objects accelerate. M М. M theexperta.com Part () From the list given, select all that appear on a correct free body diagram of the first block the one that resides on a wooden surface and has mass M Multiple Sclect 1) The weight of the block that hangs from the other end of the rope and has mass M 2) A force due to static friction. 3) A force due to kinetic friction 4) A normal force 5) A force due to the tension in the rope 6) The weight of the block that resides on a wooden surface and has mass M 7) A spring force, also known as an elastic force. Part (b) From the list given, select all that appear on a correct free body diagram of the second block, the one that hangs from the other end of the rope and has massM Multiple Select 1) The weight of the block that hangs from the other end of the rope and has mass M 2) A force due to static friction 3) A force due to kinetic friction 4) A normal force 5) A force due to the tension in the rope. 6) The weight of the block that resides on a wooden surface and has mass M 7) A spring force, also known as an elastic force. pulls a block of ice across a frozen lake by applying a force, F, using a rope at an angle above the horizontal, as shown. F e From the list offered, select all of the forces that should appear on the free body diagram of the block of ice. MultipleSelect 1) The normal force on the frozen lake due to the block of ice. 2) The weight of the block of ice. 3) The force of kinetic friction on the frozen lake due to the block of ice. The force of static friction between the rubber boots of the strong entrant and the frozen surface of the lake. 5) The force of static friction on the block of ice due to the frozen lake. 6) The force of kinetic friction on the block of ice due to the frozen lake. 7) The normal force of the frozen lake acting on the block of ice. 8) The weight of the strong entrant. 9) The force of static friction on the frozen lake due to the block of ice. 10) The applied force, F. due to the tension in the rope.